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Tough soldering for stretchable electronics by small-molecule modulated interfacial assemblies

Liqing Ai, Weikang Lin, Chunyan Cao, Pengyu Li, Xuejiao Wang, Dong Lv, Xin Li, Zhengbao Yang, Xi Yao

2023Nature Communications44 citationsDOIOpen Access PDF

Abstract

Abstract The rapid-developing soft robots and wearable devices require flexible conductive materials to maintain electric functions over a large range of deformations. Considerable efforts are made to develop stretchable conductive materials; little attention is paid to the frequent failures of integrated circuits caused by the interface mismatch of soft substrates and rigid silicon-based microelectronics. Here, we present a stretchable solder with good weldability that can strongly bond with electronic components, benefiting from the hierarchical assemblies of liquid metal particles, small-molecule modulators, and non-covalently crosslinked polymer matrix. Our self-solder shows high conductivity (>2×10 5 S m −1 ), extreme stretchability (~1000%, and >600% with chip-integrated), and high toughness (~20 MJ m −3 ). Additionally, the dynamic interactions within our solder’s surface and interior enable a range of unique features, including ease of integration, component substitution, and circuit recyclability. With all these features, we demonstrated an application as thermoforming technology for three-dimensional (3D) conformable electronics, showing potential in reducing the complexity of microchip interfacing, as well as scalable fabrication of chip-integrated stretchable circuits and 3D electronics.

Topics & Concepts

Stretchable electronicsMaterials scienceMicroelectronicsElectronicsSolderingNanotechnologyInterfacingConformable matrixElectronic circuitFabricationComposite materialComputer scienceElectrical engineeringEngineeringMedicinePathologyAlternative medicineComputer hardwareAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsNanomaterials and Printing Technologies
Tough soldering for stretchable electronics by small-molecule modulated interfacial assemblies | Litcius